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Sommaire du brevet 2156989 

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Disponibilité de l'Abrégé et des Revendications

L'apparition de différences dans le texte et l'image des Revendications et de l'Abrégé dépend du moment auquel le document est publié. Les textes des Revendications et de l'Abrégé sont affichés :

  • lorsque la demande peut être examinée par le public;
  • lorsque le brevet est émis (délivrance).
(12) Brevet: (11) CA 2156989
(54) Titre français: PROCEDE D'APPLICATION EN CONTINU DE BOUCHE-PORES AQUEUX SUR UN SUBSTRAT DE BOIS
(54) Titre anglais: PROCESS FOR CONTINUOUSLY APPLYING A WATER-BASED FILLER MATERIAL TO A SUBSTRATE
Statut: Périmé et au-delà du délai pour l’annulation
Données bibliographiques
(51) Classification internationale des brevets (CIB):
  • B05D 7/06 (2006.01)
  • B05C 5/02 (2006.01)
  • B05C 11/10 (2006.01)
  • B05D 7/08 (2006.01)
  • B27N 7/00 (2006.01)
(72) Inventeurs :
  • ARRINGTON, DONALD L. (Etats-Unis d'Amérique)
(73) Titulaires :
  • WILLAMETTE VALLEY COMPANY (THE)
(71) Demandeurs :
  • WILLAMETTE VALLEY COMPANY (THE) (Etats-Unis d'Amérique)
(74) Agent: OYEN WIGGS GREEN & MUTALA LLP
(74) Co-agent:
(45) Délivré: 2000-07-18
(22) Date de dépôt: 1995-08-25
(41) Mise à la disponibilité du public: 1996-04-06
Requête d'examen: 1996-02-07
Licence disponible: S.O.
Cédé au domaine public: S.O.
(25) Langue des documents déposés: Anglais

Traité de coopération en matière de brevets (PCT): Non

(30) Données de priorité de la demande:
Numéro de la demande Pays / territoire Date
08/318,066 (Etats-Unis d'Amérique) 1994-10-05

Abrégés

Abrégé français

Un procédé pour l'application continue d'un mastic substantiellement uniforme et homogène à base d'eau sur des substrats de bois sous-jacents. Ce procédé comporte l'introduction des substrats de bois sous-jacents dans une zone d'application de mastic. Ensuite, on détermine la température initiale de la surface extérieure des substrats de bois sous-jacents. Préalablement à l'application du mastic à base d'eau, on détermine la température initiale dudit mastic à base d'eau. Préalablement à l'application dudit mastic sur des substrats de bois sous-jacents, la température initiale du mastic à base d'eau est ajustée continuellement, en fonction de la température initiale du substrat de bois sous-jacents, afin d'assurer le maintien de la température finale du mastic à base d'eau de la surface extérieure du substrat sous-jacent. Le mastic à base d'eau est appliqué continuellement sur la surface extérieure des substrats de bois sous-jacents, dans la zone d'application du mastic. Les substrats de bois sous-jacents revêtus de façon substantiellement uniforme et homogène par le mastic à base d'eau sont formés avec ce procédé.


Abrégé anglais

A process is provided for continuously applying a substantially uniform and smooth filler of a water-based filler material to underlying wood substrates. The process comprises introducing the underlying wood substrates into a filler application area. Then, the initial temperature of the outer surface of the underlying wood substrates is determined. Prior to applying the water-based filler material, the initial temperature of said water-based filler material is determined. Prior to applying same to said underlying wood substrates, the initial temperature of the water-based filler material is continuously adjusted, based on the initial temperature of the underlying wood substrate, so that the final temperature of the water-based filler material of the outer surface of the underlying substrate is maintained. The water-based filler material is continuously applied to the outer surface of the underlying wood substrates in the filler application area. Underlying wood substrates that are substantially uniformly and smoothly coated with said water-based filler material are formed by this process.

Revendications

Note : Les revendications sont présentées dans la langue officielle dans laquelle elles ont été soumises.


WHAT IS CLAIMED IS:
1. A process for continuously applying a substantially uniform
and smooth filler of a water-based filler material to underlying wood
substrates, which comprises:
providing said underlying wood substrates having an outer
surface; providing said water-based filler material having a total
solids of at least about 70 % by weight, based on the total weight of said
filler material, and a Brookfield viscosity of at least about 100,000 cps;
introducing said underlying wood substrates into a filler
application area;
determining the initial temperature of the outer surface of
said underlying wood substrates prior to applying said water-based filler
material, the initial temperature of said outer surface of said underlying
substrate being from about 65 up to about 210 degrees F. ;
determining the initial temperature of said water-based filler
material prior to applying same to said underlying wood substrates, the
initial temperature of the water-based filler material being from about 75
up to about 135 degrees F.;
continuously adjusting the temperature of said water-based
filler material based on the temperature of the outer surface of said
underlying wood substrate so that the temperature of the water-based
filler material applied to the outer surface of said underlying wood
substrate is maintained at an application temperature which will cause the
water-based filler material to smoothly flow over and fill the contours of
the outer surface of the underlying wood substrates, the smoothly flowing
water-based filler material avoiding sag or shrinkage when applied to the
underlying wood substrate, and the outer surface of the underlying wood
substrate thereby being substantially uniformly and smoothly coated with

-17-
said water-based filler material; and
continuously applying the water-based filler material to the
outer surface of the underlying wood substrates at the adjusted application
temperature in the filler application area
to form underlying wood substrates that are substantially
uniformly and smoothly coated with said water-based filler material.
2. The process of claim 1, wherein said wood substrate
comprises a composite wood product.
3. The process of claim 2, wherein the underlying composite
wood product comprises particleboard, oriented strandboard, plywood,
or waferboard.
4. The process of claim 1, wherein the initial temperature of the
outer surface of said underlying wood substrates is from about 70 up to
about 200 degrees F.
5. The process of claim 1, wherein the initial temperature of the
outer surface of said underlying wood substrates is from about 75 degrees
up to about 175 degrees F.
6. The process of claim 1, wherein the initial temperature of
said water-based filler material is from about 80 degrees up to about 120
degrees F.
7. The process of claim 1, wherein the initial temperature of
said water-based filler material is from about 85 degrees F. up to about
120 degrees F.
8. The process of claim 1, wherein said water-based filler
material has a % total solids of at least about 75 % by weight, based on
the total weight of said water-based filler material.
9. The process of claim 1, wherein the application temperature

-18-
of said water-based filler material is at least about 85 degrees F. up to
about 200 degrees F.
10. The process of claim 1, wherein said water-based filler
material in said application area has a Brookfield Viscosity of at least
about 115,000 cps.
11. The process of claim 1, wherein said water-based filler
material is applied to the edge of said underlying wood substrate.
12. The process of claim 1, wherein said water-based filler
material is a water-based putty material.
13. The process of claim 1, wherein said filler material is applied
to the underlying substrate at a thickness of up to about 28 wet mils.
14. The process of claim 11, wherein said substantially uniformly
and smoothly coated underlying wood substrates can be stacked without
substantial blocking within 60 seconds after said application step is
completed.
15. The process of claim 11, wherein said filler material is
applied in a single pass.
16. A process for continuously applying a substantially uniform
and smooth filler of a water-based filler material to underlying wood
substrates, which comprises
providing said underlying wood substrates having an outer
surface;
providing said water-based filler material at a % total solids
of at least about 70 % by weight, based on the total weight of the water-
based filler material, and a Brookfield Viscosity of at least about 100,000
cps;
introducing said underlying wood substrates into a filler

-19-
application area;
determining the temperature of the outer surface of said
underlying wood substrates prior to applying said water-based filler
material;
determining the temperature of said water-based filler
material prior to applying same to said underlying wood substrates;
continuously adjusting the temperature of said water-based
filler material, based on the temperature of the outer surface of said
underlying wood substrate, as previously determined, so that the
temperature of the water-based filler material applied to the outer surface
of said underlying wood substrate is maintained at an application
temperature of at least about 85 degrees F. up to about 200 degrees F. ;
and
continuously applying the water-based filler material to the
outer surface of the underlying wood substrates at the adjusted application
temperature, in the filler application area, so that the water-based filler
material smoothly flows and fills the contours of the outer surface of the
underlying wood substrates, thereby avoiding sag or shrinkage thereof on
the underlying wood substrate
to form underlying wood substrates that are substantially
uniformly and smoothly covered with said water-based filler material.
17. The process of claim 16, wherein the underlying composite
wood product comprises particleboard, oriented strandboard, plywood,
or waferboard.
18. The process of claim 16, wherein the temperature of the
outer surface of said underlying wood substrates is up to about 210
degrees F.

-20-
19. The process of claim 16, wherein the temperature of said
water-based filler material is up to about 135 degrees F.
20. A process for continuously applying a substantially uniform
and smooth filler of a water-based putty material to at least one edge of
an underlying wood substrates, which comprises
providing said underlying wood substrates including an outer
surface having a plurality of edges;
introducing said underlying wood substrates into an
application area;
determining the initial temperature of the outer surface of
said underlying wood substrates prior to applying said water-based putty
material, the initial temperature of the outer surface being from about 65
degrees F. up to about 210 degrees F.;
determining the temperature of said water-based putty
material prior to applying same to said underlying wood substrates, the
temperature of the water-based putty material being up from about 75
degrees F. to about 135 degrees F.;
continuously adjusting the temperature of said water-based
putty material to an application temperature of from about 85 degrees F.
up to about 200 degrees F., based on the previously determined
temperature of the outer surface of said underlying wood substrate, and
thereby continuously forming a smoothly flowing water-based putty
material; and
continuously applying the smoothly flowing water-based
putty material to at least one of the edges of the underlying wood
substrates, at the adjusted application temperature, in the filler application
area, the smoothly flowing water-based putty material, on application,

-21-
filling the contours of the edge of the underlying wood substrates, and
also avoiding sag or shrinkage thereof on the edge of the underlying
wood substrate
to form underlying wood substrates having at least one edge
which is substantially uniformly and smoothly coated with said
water-based putty material.
21. The process of claim 20, wherein the initial temperature of
said water-based filler material is from about 80 degrees F. up to about
125 degrees F.
22. The process of claim 20, wherein the initial temperature of
said water-based filler material is from about 85 degrees F. up to about
120 degrees F.
23. The process of claim 20, wherein said water-based filler
material in said application area has a % total solids of at least about
70 % by weight, based on the total weight of said water-based filler
material.
24. The process of claim 20, wherein the application temperature
of said water-based filler material is from about 85 degrees F. up to
about 200 degrees F.
25. The process of claim 20, wherein said water-based filler
material in said application area has a Brookfield Viscosity of at least
about 100,000 cps.
26. The process of claim 20, wherein said water-based filler
material comprises calcium carbonate, ground lignocellulose, a polymeric
suspension, and water.
27. The process of claim 20, wherein said filler material is
applied to the underlying substrate at a thickness of up to about 28 wet

-22-
mils.
28. The process of claim 20, wherein said substantially uniformly
and smoothly coated underlying wood substrates can be stacked without
substantial blocking within 60 seconds after said application step is
completed.
29. The process of claim 20, wherein said filler material is
applied in a single pass.

Description

Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.


_ 215~989
PROCESS FOR CONIINUOUSLY APPLY~G A WATER-BASED
FT~ R MATERIAL TO A SUBSTRATE
BACKGROUNI) OF THE INVENTION
The present invention is directed to a process for continuously
applying a filler material to a substrate, and more particularly, to a
process for applying a water-based filler material to a wood product
board substrate.
Coated wood products employing filler materials are typically
used in industries such as the furniture industry. Presently, a filler
material application process is commercially conducted using a
solvent-based filler, such as an acetone-based putty material. A thin
layer of the solvent-based filler material is applied at a constant
temperature to a heated wood board substrate. The constant
temperature of the solvent-based rlller material is achieved by heating
drums of the material for up to a 48-hour period. The solvent is then
flashed off as a vapor. However, the emission of these solvent vapors
causes an environmental problem for workers in the filler application
area.
Water-based filler materials are more environmentally
acceptable than their solvent-based counterparts. Some water-based
glues have been applied to wood substrates. For example, U.S.
5,234,519 to Talbot et al. discloses the application of a veneer to
particle board, including use of a preheated substrate and a water-
based glue. The glue is applied to the veneer by a roller applicator,
and the glue is dried by fans and infrared radiation. U.S. 3,428,508 to
Quick et al. refers to edge-gluing of lumber, wherein the boards are
heated and a heat-cured adhesive is applied. The heat-cured adhesive
cures as the board cools. U.S. 4,853,061 to Leung discloses a water-
based urethane adhesive for use, e.g., on particle board. U.S. 5,256,227
to Roelofs describes the splicing of an endless belt accomplished by the

2156989
use of a water-based adhesive with heat application to avoid use of
a&esives which emit organic volatiles on curing.
U.S. Patent 5,130,173 discloses preheating of a solvent-
cont~ining paint and an underlying substrate to which it is applied to
reduce drying time. U.S. Patents 4,070,509, 5,160,766 and ~,290,598
are directed to high-solids solvent-based filler compositions which
reduce solvent content. U.S. Patents 5,141,784 and 5,308,~57 describe
various water-based compositions for wood; the compositions of the
latter patent are intended for filler furniture board edges. U.S. Patent
4,521,495 refers to flooding the surface of a preheated wood substrate
with an aqueous filler material, partially dewatering the filler
material, ~ffl~ing the filler to the surface by coalescence, and then
removing the excess filler with an air knife.
In the application of a water-based filler material to an
underlying wood substrate, it can take up to 30 minutes to flash off the
water phase of a water-based filler material if the formation conditions
are not carefully controlled during the filler operation. Also, the
application temperature of the wood board substrate con~inll~lly
changes during the filler formation process. This is not a problem in
solvent-based systems since the solvent has such a relatively low flash
point. However, since water has a much higher flash point,
inst~nt~neous removal of moisture from the substrate filler has proven
to be a significant hindrance to continuous commercial operation. If
the requisite application temperature is not maintained within the
designated operating range during the filler operation in the
application area, flow problems will occur with the filler material
which will impede the continuous application process.
After completion of the filler process, the coated boards should
remain tack-free and exhibit a high degree of surface smoothness. If
the coated boards are tacky, they will undergo blocking, i.e., they will

,.. ,, ` ' 2ls6989
stick together when stacked during storage. Tackiness is caused to a
significant extent by the presence of excess moisture in the filler
material after its application to an underlying substrate. Typically,
this is due to insufficient vaporization of water vapor during the filler
application process. A high degree of surface smoothness must also be
m~int~ined in the final product. This property is affected by excess
shrinkage of the filler material in the application area which results in
unwanted dips or dents being formed in the outer surface of the filler
material.
Accordingly, there are presently no known continuous
commercial filler operations of the type described above which employ
water-based materials, particularly wood-based filler materials. A
need therefore exists for a continuous process for applying a water-
based filler material to a wood board substrate in which the water
phase will rapidly flash off the water-based filler material, and
wherein the temperature of the filler material can be adjusted to
conform to the temperature of the wood board substrates even though
the temperature of the wood board substrates continually change
during the course of the filler formation process, the product coated
board substrate being tack-&ee and having the desired degree of
surface smoothness.
SUMMARY OF THE INVENTION
The above-described need has now been met by the process of the
present invention. The subject process relates to continuously
applying a substantially uniform and smooth filler of a water-based
filler material to underlying wood substrates. The process comprises
providing underlying wood substrates having an outer surface on
which the water-based filler material is applied. Although most
primary lumber substrates can be employed in the subject process, it is

2l5698~
preferred that the underlying wood substrate comprise a composite
wood product, and more preferably, that the underlying composite
wood product comprise a product such as particleboard, oriented
strandboard, plywood, or waferboard. In the preferred form of this
invention, a lower grade wood substrate can be upgraded through the
application of the filler material which acts to coat the outer surface
thereof giving the appearance of a higher grade wood product.
The underlying wood substrates described above are first
introduced into a filler material application area where a water-based
filler material is applied thereto. The wood substrates typically have
been heated at a point in the process prior to entering the application
area and prior to applying the water-based filler material. Typically,
in the wood products industry, the wood substrates are manufactured
employing equipment which applies high temperature and pressure
thereto. The equipment predominantly used for this purpose is known
as a hot press. The wood substrate formation is conducted using the
hot press equipment under relatively high temperature and pressure
conditions, as high as 350 degrees F. Therefore, the temperature of the
outer surface of these underlying wood substrates after completion of
the formation process will generally be increased to an initial
temperature. Although the initial temperature can be ambient
temperature, it is typically higher depending on the formation
conditions under which the wood substrates are produced. Typically,
the initial temperature of the outer surface of the underlying substrate
is from about 65 up to 210 degrees F., more preferably from about 70
up to 200 degrees F., and most preferably from about 75 up to 175
degrees F.
The initial temperature of the water-based filler material is also
determined prior to applying same to the underlying wood substrates.
The initial temperature is generally ambient temperature. Typically,

t
2156989
the temperature of the outer surface of the underlying substrate is
from about 75 up to 135 degrees F., more preferably from about 80 up
to 125 degrees F., and most preferably from about 85 up to 120 degrees
F.
However, the initial temperature of the water-based filler
material must be continually adjusted based on the initial temperature
of the underlying wood substrate. In this way the final temperatures
of the water-based filler material as applied to the outer surface of the
underlying substrate will be maintained within a temperature range
which will facilitate the continuous application of the water-based filler
material to the underlying substrate by flowing smoothly and thereby
evenly coating the underlying substrate, preferably in a coating single
pass.
In the process of the present invention, the temperature of the
filler material is continually adjusted based on the initial temperature
of the underlying wood substrate, the filler material will evenly flow
over the outer surface of the underlying substrate filling the contours
of the outer surface and forming a smooth outer layer of substantially
uniform minimum thickness. In fact, the subject process will
preferably allow changes in the temperature of the underlying
substrate to be rapidly handled by correspondingly changes in
tem~rature of the water-based filler material. Thus, the water-based
filler material is continuously applied to the outer surface of the
underlying wood substrates in the filler application area wherein both
are m~int~ined at the requisite predetermined temperature level and,
accordingly, the underlying wood substrates are subst~nti~lly
uniformly smoothly coated with the water-based filler material. The
m~nner of rapidly increasing the temperature of the filler material is
through the use of a heat source, preferably a heater hose used to
maintain the desired temperature of the filler material for application.

'~'`''7 21~6989
In use, the heater hose typically is employed to transport the filler
material to the surface of the underlying subskate. The temperature
of the filler material can be rapidly and accurately adjusted as the
filler material is transported through the heater hose so that filler
material heated to the requisite temperature will exit the heater hose
and will be directly applied to the surface of the underlying substrate.
Therefore, the requisite application temperature is maintained
within the design~ted operating range during the filler dispensing
operation in the application area when the subject process is employed
as described above. In this way, the aforementioned flow and coating
problems will not occur with the filler material which will impede the
continuous application process thereof to the underlying substrate.
The final temperature of the water-based filler material, during
application to the underlying wood substrate, will preferably be from
about 85 up to 200 degrees F., more preferably from about 90 up to 180
degrees F., and most preferably from about 95 up to 160 degrees F.
The water-based filler material is typically a water-based putty
material. A preferred water-based putty material composition
comprises calcium carbonate, ground lignocellulose, a polymeric
emulsion, and water. Other additive materials may include defoamers,
pigments, dispersants, biocides and glycol ethers. For example, a
preferred composition for use as a water-based putty material is, based
on the weight percent of the respective individual components, from
about 70 % to 80 %, and more preferably about 75 % of calcium
carbonate, from about 1% to 5 %, and more preferably about 3 %
ground lignocellulose, typically in the form of wood flour, from about
5 % to 10 %, and more preferably about 7 % of a polymeric emulsion,
such as an acrylate, from about 5 % to 15 %, and more preferably about
10 % water, and from about 3 %-to 10 %, and more preferably about
5 % of additives including materials such as those described above.

'`- 2156989
Unlike solvent-based filler materials which can have a relatively
lower total solids (less than about 70% by weight) because the solvent
portion of the composition will more readily instantaneously flash off,
as we iiæcll~sed above, the same is not the case with water-based filler
materials wherein the water can take up to 30 minutes to be
evaporated. This has been a problem in the past and is a major reason
why water-based filler materials are not in common use. However, in
the process of the present invention, a m~q-rimum total solids range is
provided in subject water-based filler materials. Thus, the total solids
of the water-based filler materials of the present invention is
preferably at least about 70% by weight, based on the total weight of
the filler material, more preferably at least about 75% by weight, based
on the total weight of the filler material, and most preferably at least
about 80% by weight, based on the total weight of the filler material.
The water-based filler material in the application area should
have a minimum viscosity to avoid sag or shrinkage of the water-
based filler material on the underlying substrate. The term
"Brookfield Viscosity" for purposes of this invention is the viscosity of
the filler material measured with-a Brookfield Synchro-Lectric
viscometer, Model RVT with a "D" spindle, at 2.5 RPM and a
deæc~nlling platform at 77 degrees F. i 1 degree F, and having a total
solids of 74 weight % i 1.5%. Under the aforementioned conditions,
the Brookfield Viscosity of the water-based filler material is preferably
at least about 100,000 cps, more preferably at least about 115,000 cps,
and most preferably at least about 130,000 cps.
The filler material is preferably applied to the underlying
substrate so that coverage is thin and smooth. If the filler material is
too cool, the filler material will exhibit a grainy uneven appearance on
the underlying substrate. It the filler material is too hot, sag and
shrinkage will increase and the requisite degree of smoothness will

-, : 2l56989
~imini~h If the continuous process of this invention is employed,
however, the above problems will be substantially çlimin~te-l since
temperature can be effectively controlled. Preferably, the layer of filler
material applied to the underlying substrate will be substantially
uniform and cover the entirety of the underlying to which it is applied,
preferably at a thickness of up to about 28 wet mils, more preferably a
thickness of up to about 14 wet mils, and most preferably a thickness
of up to about 10 wet mils. The term "wet mils" is defined as the
thirkness of the filler material immediately after application and prior
to substantial drying thereo
After completion of the filler application process, the dried coated
boards remain subshnti~lly tack-free. Thus, the substantially
uniformly and smoothly coated underlying wood substrates can be
stacked without substantial blocking. For example, st~rking of the
finished edge coated underlying substrates can preferably be
accomplished within about 10 seconds, more preferably within about
30 seconds, and most preferably within about 60 seconds after the
application step to the edge of the underlying substrate is completed,
without substantial blocking.
A high degree of surface smoothness is maintained in the outer
surface of the final product. This is the case since subst~nt;~l
shrinkage of the filler material is avoided. Therefore, significant
amounts of unwanted dips or dents are not formed in the outer surface
of the filler material and substantially uniformly and smoothly coating
of the underlying substrate by the water-based filler material is
achieved.
BRIEF DESCRIPTION OF DR~WINGS
FIG. 1 is a srhem~tic perspective representation of a system for
continuously providing a wat~r-based filler material from cont~iner 12

'-3~., 21 $698g
to applicator head 32 at the requisite application temperature.
FIG. 2 is a schematic perspective representation of a system for
continuously applying a substantially uniform and smooth coating of a
water-based filler material to underlying wood substrates.
FIG. 3 is a schematic perspective representation of a filler
material application system for continuously providing a water-based
filler material to a wood substrate.
FIG. 4 is a perspective view of particleboard panel having a
routered edge coated with a water-based filler material.
FIG. 5 is an end view of the particleboard panel of FIG. 4.
FIG. 6 is a perspective view of a plywood panel having a edge
coated with a water-based filler material.
FIG. 7 is an end view of the plywood panel of FIG. 6.
FIG. 8 is an end view of a plywood panel, 5imil~r to the panel
depicted in FIGS. 6 and 7, having a pair of routered edges coated with
a water-based filler material coated on each of the edges.
DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT
Referring now to FIGS. 1-3, a preferred process for continuously
applying a substantially uniform and smooth filler of a water-based
filler material to underlying wood substrates is shown.
Container 12 having the water-based filler material located
therewithin, typically in the form of a tote or drum, is shown in FIG. 1.
The requisite physical and chemical properties of the water-based filler
material, which is typically a water-based putty material, are
determined prior to manufacture so that they are manifested in the
final product. These properties can include properties such as
viscosity, total solids and product composition.
Container 12 of the water-based filler material is attached to a
feed line 13, which in turn is joined to pump 14 which directs the filler

2ls6989
material through trace line heater hose 20 for application to a wood
substrate 100. The preferred pump 14 is an air pressure-type pump,
such as a Graco Model No. 206-445 air pressure-type pump
manufactured by Graco Company of Atlanta, Georgia. The Graco
pump has a 10:1 displacement ratio, 120 psi m~s~imum working
pressure and a typical working pressure of between about 35 and 70
psi, an infeed valve of about 1.5" npt and an out feed port of about
0.75" npt, Pump 14 includes a air regulator 16 which attached to the
mill pressurized air supply and which acts to control the pressure
output from the pump 14 to the water-based filler material and
ultim~t~ly to the applicator head 32. An in-line control valve 1~,
typically a ball valve, which is located at the outlet of pump 14, turns
on or off the flow of the water-based filler material to traceline heater
hose 20.
The traceline heater hose 20 is connected at its inlet end 20a to
in-line control valve 18. The preferred heater hose 20 is manufactured
by Technical Heater Inc. of San Fernando, California, is 0.5" diameter
and 16 feet long with 0.5" JIC fittings and a m~imum working
pressure of about 2500 psi.
The temperature of the water-based filler material is controlled
within the confines of the tr~celine heater hose 20 by a heater control
system 24. The preferred heater controller system 24 is a
manufactured by The Willamette Valley Co. of Eugene, Oregon, 110
volt with a temperature range from 0 to 1200 degrees F. The preferred
heater controller can maintain the filler at a constant temperature and
can control the flow rate to the substrate by varying the temperature
to change the filler material viscosity. System 24 comprises a control
box 26 joined to traceline heater hose 20 by an electrical supply line 25
ext~n~ling therebetween, and having a electrical line 29 connected to a
source of electrical current (not shown). The control box 26 is

69~
manually operated by engaging or disengaging the thermostat switch
27 to increase or decrease the amount of heat imparted to the water-
based filler material by the heater hose. Increasing the temperature of
the heater controller system 24 will increase the heat generated by the
traceline heater hose 20 which in turn will increase the temperature of
the water-based fi!ler material.
The traceline heater hose 20 is connected at its outlet end 20b to
the inlet of a Y-type strainer filter 22. Filter 22 is coupled to a in-line
valve 28, typically a ball valve, which in turn in attached to a fluid
regulator 30 which is a Model No.651-709-B, manufactured by Aro ~D . L. A.
Company of Bryan, Ohio. In-line valve 28 controls the flow of water-
based filler material to the fluid regulator 30, and fluid regulator 30
adjusts the amount of water-based filler material which flows to the
applicator head 32 through heater hose 20.
Applicator head 32 is a generally rectangular-shaped housing
having a top 38, a bottom 40, sides 42, an inlet end 34 to which the
heater hose 20 is coupled, and an outlet end 36 all of which defines an
inner chamber (not shown) for receiving the water-based filler
material. The outlet end 36 has a slot 44 located therewithin through
which the water-based filler material fed to the inner chamber is
applied to the wood substrate 100. Preferably, the applicator head 32
is an applicator smear head manufactured by Lawrence-David Inc. of
Eugene, Oregon. All of the connections between the container 10, feed
line 12, pump 14, in-line control valves 18 and 28, traceline heater
hose, filter 22, fluid regulator 30 and applicator head 32, respectively,
are made employing conventional at~ hment means.
The wood substrate feed system design~ted generally as "50" is
designed to provide a wood substrate 100 having at least one routered
edge on which the water-based filler material can be applied. The feed
system 50 comprises an apparatus for moving a wood substrate 100
11

215698~
along a flow path designated "X" from infeed station 45 through
successive routering to outfeed station 90. Filler material application
operations to at least one routered edge of the wood substrate 100 will
take place along the flow path.
Infeed station 45 typically comprises an x-lift table 46 for
supporting and individually infeeding wood substrate 100 to feed
system 51 from a stack of wood substrate 100 located on table 47.
Table 47 is attached to and supported on an x-lift mech~ni.qm 48. X-
lift me~h~ni.sm 48 indexes a stack of wood substrate 100 located on
table 47 upward to a predetermined height when the top wood
substrate 100 is fed into the feed system 51 and is removed from the
stack. The x-lift table maintains the stack in predetermined ~lignment
with the feed system 51.
The feed system 51 comprises upper and lower drive conveyors 52
and 54 which comprise respective upper and lower continuous conveyor
belts 56 and 57, the belts 56 and 57 wrapping around drive inlet rollers
58 and outlet rollers 59 located at the respective inlet and outlet ends
60 and 62 of the lower and upper drive conveyors 52 and 54,
respectively. The feed system 51 is joined to and supported above
ground level on frame member 53. The drive conveyor belts 56 and 57
move in a counterclockv~ise direction about rotating rollers 58 and 59.
Roller 58 is rotated in a counterclockwise direction and roller 59 is
rotated in a clockwise direction by drive motors (not shown). The lower
and upper drive conveyors 52 and 54 together define an intermediate
open area '~" located below the bottom of upper drive conveyor belt 52
and above the top of lower drive conveyor 54. The intermediate open
are 'X" acts as a flow path for feeding the wood substrates through the
application area and onto a st?.r.king station.
The filler material application system 50 can include a router
system 70 for imparting at least one routered edge to the wood
12

., , 21$6989
substrate 100 depicted in FIGS. 5 and 6. The routering system 70
comprises a routering m~l~.hine 72 having a revolving vertical spindle
74 and router cutting heads 76 for millin~ out the surface of the edge of
the wood substrate 100. The router cutting heads 76 are driven by a
router motor 78. For safety and environmental purposes, a vacuum
hood 80 is installed in the system 50 which provides a protective
shroud for routering system 70 for cont~ining the wood particles
produced during the routering operation thereby safeguarding the
person acting as line tender during the filler material application
process.
Applicator head 32 is coupled to frame member 53 using a
conventional mounting bracket (not shown) at a point between the
outlet of the routering system 50 and the outfeed station 90.
Outfeed station 80 typically comprises an x-lift table 46"simil~9r
in construction to outfeed station 45, for supporting wood substrate 100
that have been substantially uniformly and smoothly covered with the
water-based filler material X-lift me~h~ni.sm 82, in this instance,
receives and stacks finished wood substrates on table 84. The x-lift
table 84 maintains the stack in predetermined ~lignment with the feed
system 51 by indexing a predetermined distance in a downward
direction when sllccessive finished wood substrates are stack one atop
the other.
The wood substrates 100, prior to introduction into the edge
routering and filler material application areas, are placed on x-lift
table 46 using a fork lift or the like. ,~imil~rly, when the finished wood
substrate 100 that are substantially uniformly and smoothly coated
with a water-based filler material are fully stacked atop x-lift table 84,
they are also removed using a fork lift or the like, and then stored for
shipment to customers.

21 S6989
For example, a water-based filler material was provided in
containers 12 at a predetermined viscosity, for continuous application
to a wood substrate, employing system 10 of the present invention
which was previously described. Pump 14 was connected by an
operator known as a "line tender" to both the heater hose 20 and the
container 12. The heater hose 20 was also connected to filter 22. Filter
22 was coupled to fluid regulator in-line valve 28, which in turn in
~tt~rhed to a fluid regulator 30 and application head 32. Next, the
heater control system 24 was installed to the heater hose 20 and then
plugged into a source of electrical current. The heater hose 20 was
turned on and set at 100 degree F. for start-up purposes. Then, pump
14 was turned on, set at 45 psi, so that the water-based filler material
flowed through the heater hose until it filled up the inner chamber of
applicator head 32. About 2 gallons of water-based filler material was
run through hose 20 and applicator head 32 to st~hili7.e the
temperature and to pressure and to pressure out air entrapped in the
hose.
Wood substrate 100 was fed from infeed station 45 to feed system
50 where they were moved -within intermediate area Y by respective
upper and lower drive conveyors 52 and 54 acting together to impel, if
desired, the wood substrates in a flow path to router system 70.
Router cutting heads 76 milled out the surface of the edge of the wood
substrate. When particleboard was used as the wood substrate, a
routered edge was produced as shown in FIG. 4. However, when
plywood was used as the wood substrate, a flat edge simil~r to the one
depicted in FIG. 6 was produced. Therefore, the system can be
operated with or without the routering step.
Water-based filler material was applied to the edge by applicator
head 32 as the wood substrate was moved along flow path "X". In the
system depicted, the edge is routered. The line tender adjusted the
14

;', 2ls6989
pressure and temperature within the heater hose 20 by adjusting
respectively the pressure on pump 14 and by adjusting the current in
electrical supply line 26 at heater control system 24. The line tender
will visually inspect the coverage and smoothness of the filler material
coating being imparted by applicator head 32 to the routered edge of
the wood substrate. A wood substrate 100 co~ ;sing particleboard
with a routered edge which has been appropriately covered with a filler
material on a single edge i9 shown in FIG. 4, and a wood substrate
comprising plywood with a routered edge wl~ich has been a~rop,;ately
covered with filler material on a single edges is shown in FIG. 6. VVhen
the covering of filler material imparted to the wood substrates became
tmAcceptable by visual inspection, the line tender adjusted the
temperature and/or pressure to ultimately produce a wood substrate
which was substantially uniformly and smoothly covered by the water-
base filler material. This temperature and/or pressure adjustment was
completed in a matter of seconds by the line tender.
If desired, a system similAr to system 10 can be provided on the
opposite side of feed system 51 for purposes of continuous application
of a water-based filler material to a second routered edge of a wood
substrate. In the dual-sided application case, an end view of a plywood
panelhavingapalrof ~3.A. s~e:d edges and having filler material
applied to both edges is depicted in FIG. 8.
Having illustrated and described the principles of my invention
in a preferred embodiment thereof, it should be readily apparent to
those skilled in the art that the invention can be modified in
arrangement and detail without departing from such principles. I
claim all modifications coming within the spirit and scope of the
accompanying claims.

Dessin représentatif
Une figure unique qui représente un dessin illustrant l'invention.
États administratifs

2024-08-01 : Dans le cadre de la transition vers les Brevets de nouvelle génération (BNG), la base de données sur les brevets canadiens (BDBC) contient désormais un Historique d'événement plus détaillé, qui reproduit le Journal des événements de notre nouvelle solution interne.

Veuillez noter que les événements débutant par « Inactive : » se réfèrent à des événements qui ne sont plus utilisés dans notre nouvelle solution interne.

Pour une meilleure compréhension de l'état de la demande ou brevet qui figure sur cette page, la rubrique Mise en garde , et les descriptions de Brevet , Historique d'événement , Taxes périodiques et Historique des paiements devraient être consultées.

Historique d'événement

Description Date
Le délai pour l'annulation est expiré 2013-08-27
Lettre envoyée 2012-08-27
Inactive : CIB de MCD 2006-03-11
Inactive : CIB de MCD 2006-03-11
Inactive : CIB de MCD 2006-03-11
Inactive : Acc. récept. de corrections art.8 Loi 2000-08-24
Inactive : Page couverture publiée 2000-08-24
Inactive : Correction - Doc. d'antériorité 2000-08-24
Inactive : Correction selon art.8 Loi demandée 2000-08-11
Accordé par délivrance 2000-07-18
Inactive : Page couverture publiée 2000-07-17
Préoctroi 2000-04-07
Inactive : Taxe finale reçue 2000-04-07
Lettre envoyée 1999-10-14
Un avis d'acceptation est envoyé 1999-10-14
Un avis d'acceptation est envoyé 1999-10-14
Inactive : Approuvée aux fins d'acceptation (AFA) 1999-09-27
Modification reçue - modification volontaire 1999-05-04
Inactive : Dem. de l'examinateur par.30(2) Règles 1999-02-04
Inactive : Dem. traitée sur TS dès date d'ent. journal 1998-04-14
Inactive : Renseign. sur l'état - Complets dès date d'ent. journ. 1998-04-14
Demande publiée (accessible au public) 1996-04-06
Exigences pour une requête d'examen - jugée conforme 1996-02-07
Toutes les exigences pour l'examen - jugée conforme 1996-02-07

Historique d'abandonnement

Il n'y a pas d'historique d'abandonnement

Taxes périodiques

Le dernier paiement a été reçu le 1999-07-26

Avis : Si le paiement en totalité n'a pas été reçu au plus tard à la date indiquée, une taxe supplémentaire peut être imposée, soit une des taxes suivantes :

  • taxe de rétablissement ;
  • taxe pour paiement en souffrance ; ou
  • taxe additionnelle pour le renversement d'une péremption réputée.

Veuillez vous référer à la page web des taxes sur les brevets de l'OPIC pour voir tous les montants actuels des taxes.

Historique des taxes

Type de taxes Anniversaire Échéance Date payée
Requête d'examen - générale 1996-02-07
TM (demande, 2e anniv.) - générale 02 1997-08-25 1997-08-13
TM (demande, 3e anniv.) - générale 03 1998-08-25 1998-07-17
TM (demande, 4e anniv.) - générale 04 1999-08-25 1999-07-26
Taxe finale - générale 2000-04-07
TM (brevet, 5e anniv.) - générale 2000-08-25 2000-08-16
TM (brevet, 6e anniv.) - générale 2001-08-27 2001-07-20
TM (brevet, 7e anniv.) - générale 2002-08-26 2002-08-02
TM (brevet, 8e anniv.) - générale 2003-08-25 2003-07-28
TM (brevet, 9e anniv.) - générale 2004-08-25 2004-08-06
TM (brevet, 10e anniv.) - générale 2005-08-25 2005-08-12
TM (brevet, 11e anniv.) - générale 2006-08-25 2006-08-03
TM (brevet, 12e anniv.) - générale 2007-08-27 2007-07-27
TM (brevet, 13e anniv.) - générale 2008-08-25 2008-08-01
TM (brevet, 14e anniv.) - générale 2009-08-25 2009-08-05
TM (brevet, 15e anniv.) - générale 2010-08-25 2010-08-04
TM (brevet, 16e anniv.) - générale 2011-08-25 2011-08-01
Titulaires au dossier

Les titulaires actuels et antérieures au dossier sont affichés en ordre alphabétique.

Titulaires actuels au dossier
WILLAMETTE VALLEY COMPANY (THE)
Titulaires antérieures au dossier
DONALD L. ARRINGTON
Les propriétaires antérieurs qui ne figurent pas dans la liste des « Propriétaires au dossier » apparaîtront dans d'autres documents au dossier.
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Description du
Document 
Date
(aaaa-mm-jj) 
Nombre de pages   Taille de l'image (Ko) 
Description 1996-04-06 15 759
Dessins 1996-04-06 3 119
Revendications 1996-04-06 4 149
Abrégé 1996-04-06 1 31
Page couverture 1996-05-27 1 18
Page couverture 2000-07-06 1 49
Revendications 1999-05-04 7 273
Dessins 1999-05-04 4 90
Dessin représentatif 1998-02-18 1 38
Dessin représentatif 2000-07-06 1 13
Page couverture 2000-08-24 2 88
Page couverture 2000-08-24 1 49
Avis du commissaire - Demande jugée acceptable 1999-10-14 1 164
Avis concernant la taxe de maintien 2012-10-09 1 171
Correspondance 2000-04-07 1 38
Correspondance 2000-08-11 1 42
Taxes 1995-09-25 1 42